BeHM R3 e-HM™ Series Threaded Horizontal Multi-Stage Centrifugal Electric Pumps- Brochure

e-HM ™ SeriesTHREADED HORIZONTAL MULTISTAGE CENTRIFUGAL ELECTRIC PUMPSTECHNICAL BROCHUREBeHM R3PAGE 2Commercial WaterGoulds Water TechnologyCONTENTSe-HM Hydraulic Coverage Curve . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3General Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Markets / Applications / Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5General Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6Rating Plate . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6e-HM Identification code . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .71, 3, 5 HM Models (Compact Design), Cross Section and Main Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .81, 3, 5, 10, 15, 22 HM Models (Sleeve Design), Cross Section and Main Components . . . . . . . . . . . . . . . . . . . . . . . . . . .9e-HM Mechanical Seals . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Motor Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11e-HM 3500 Performance Curves, Dimensions and Weights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12-29Technical Appendix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30-32PAGE 3Commercial WaterGoulds Water Technologye-HM™ Series Hydraulic Performance Curve05000 20 60 80 100 120Flow (GPM)Pressure (ft)10020030040060040 140 1601HM3HM5HM10HM15HM22HMPAGE 4Commercial WaterGoulds Water Technologye-HM™ SERIESGENERAL INTRODUCTIONXylem has recently developed the new e-HM series of energy-efficient horizontal, multi-stage pumps, to meet the needs of the industrial and building services markets. Pump DesignThe e-HM is a non-self-priming, end-suction, horizontal multi-stage high pressure centrifugal pump, with NPT threaded inlet and outlet connections. The pump is a close-coupled design, and is equipped with a high-efficiency motor. The pump incorporates an innovative, hydraulic design that provides the highest efficiency in the market today. The e-HM is available in two different configurations:“Compact” design - for sizes 1HM, 3HM, and 5HM up to a maximum of 6 stages.“Sleeve” design - for sizes 1HM, 3HM and 5HM starting at 7 stages and above; and all sizes of 10HM, 15HM, and 22HM sizes.The “Compact” design is made of one single piece fabricated stainless steel pump body directly connected to the motor flange. The design only requires one O-ring to seal the casing.The “Sleeve” design is made of an external stainless steel TIG welded sleeve, and incorporates a separate suction housing. The e-HM is available in all 316 stainless steel construction incorporating a 20% increase in the pump body thickness for enhanced durability and reliability.MotorThe e-HM series incorporates a Lowara IEC premium efficiency (IE3), inverter design motor for additional energy savings, and versatility. The standard motor enclosure is a TEFC (IP55) design.PAGE 5Commercial WaterGoulds Water TechnologyMARKETSBUILDING SERVICES.INDUSTRY.APPLICATIONSPressure boosting and water supply systems.Washing and cleaning industry including vehicles washing.Circulation of hot and cold liquids (like water, water and glycol) forheating, cooling and conditioning systems.Water treatment applications.Handling of moderately aggressive liquids.Food & beverage industries.SPECIFICATIONSPump• Flow rate: up to 127 GPM• Heads: up to 525 ft ( 227 psi )• Designs:Compact – one piece pump body – 1HM and 3HM, sizes up to 6 stages – 5HM, sizes up to 5 stagesSleeve – Sleeve and separate suction housing – 1HM and 3HM, 7 stages and above – 5 HM, 6 stages and above – All 10HM, 15HM, and 22HM sizes• Connections: NPT threaded suction and discharge • Temperature of the pumped liquid: -20ºF to 248ºF ( -30ºC to 120ºC )• Maximum operating pressure:– Compact pump designs - 147 PSI– Sleeve pump designs - 235 PSIMotor• Premium Efficiency class IE3• TEFC (IP 55) design• 3500 RPM• Class F insulation, 40ºC (104ºF) ambient • Standard voltage:– Single-phase: 115 or 230V, 60 Hz.- built in auto reset overload protection– Three-phase: 208-230/460V or 575V, 60 HzHigh efficiencyhorizontalmultistage pumpe-HM™ SERIESPAGE 6Commercial WaterGoulds Water TechnologyCompact Sleevee-HM™ SERIESGENERAL CHARACTERISTICSHM Series 1HM 3HM 5HM 10HM 15HM 22HMNominal Flow ( GPM ) 10 16 33 56 90 100Flow Range ( GPM ) 3 - 12 5-23 10 - 45 15 - 75 25 - 127 30 - 150Number of Stages 2 - 18 2 - 14 2 - 12 1 - 8 1 - 4 1 - 3Maximum Head ( Ft ) 520 500 430 450 275 217Maximum Working Pressure 147 psi - Compact pumps 235 psi - Sleeve pumpsTemperature Range ( ºF ) -20 F to 248 F ( 30C to 120 C )Maximum Pump Efficiency ( % ) 51 60 70 70 70 68HP Range 3/4 - 2 3/4 - 3 3/4 - 4 1 - 7 1/2 2 - 7 1/2 3 - 7 1/2Piping Connections (NPT) 1" x 1" 1" x 1" 1 1/4" x 1" 1 1/2" x 1 1/4" 2" x 1 1/2 2" x 1 1/2e-HM RATING PLATE 1 Goulds Water Technology Catalog Number 2 Capacity Range 3 TDH Range 4 Rated Speed 5 Rated Horsepower 6 Maximum Operating Pressure 7 Maximum Fluid Temperature 8 Pump Serial NumberPAGE 7Commercial WaterGoulds Water Technologye-HM PRODUCT LINENUMBERING SYSTEM FOR 1 – 22HM PUMPSThe various versions of the e-HM line are identified by a product code number on the pump label. This number is also the catalog number for the pump. The meaning of each digit in the product code number is shown below.Note: Not all combinations are possible.Example Product Code 15 HM 04 N 55 T 6P BQESeal Material BQE = Carbon-SilCar-EPDM (standard) BQV = Carbon-SilCar-Viton QQE = SilCar-SilCar-EPDM QQV = SilCar-SilCar-Viton BVE = Carbon-Ceramic-EPDM Hz – Phase – Voltage 6F = 60 – 1 – 230V 6B = 60 – 1 – 115V 6P = 60 – 3 – 208-230/460V 6Z = 60 – 3 – 575VPhase M = 1 PH T = 3 PHHP Rating 05 = .75 hp 22 = 3 hp 07 = 1 hp 30 = 4 hp 11 = 1.5 hp 40 = 5.5 hp 15 = 2 hp 55 = 7.5 hpPump Construction N = 316 Stainless SteelTotal Number of StagesProduct Line HM = Stainless Horizontal Multi-stageNominal Flow 1 = 5 GPM 3 = 16 GPM 5 = 33 GPM 10 = 56 GPM 15 = 90 GPM 22 = 100 GPMPAGE 8Commercial WaterGoulds Water TechnologyMODEL 1, 3, 5 HM..N SERIES – MAJOR COMPONENTSTABLE OF MATERIALS HM..N SERIES(COMPACT DESIGN)REFRENCE NUMBER NAME MATERIALREFERENCE STANDARDSUSA EUROPE1 Pump body Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)2 Impeller Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)3 Diffuser Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)4 Shaft Stainless steel AISI 316 EN 10088-1-X5CrNiMo17-12-2 (1.4401)5 Adapter Aluminium — EN 1706-AC-AlSi11Cu2 (Fe) (AC46100)6 Seal housing Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404) 7 Mechanical seal Ceramic / Carbon / EPDM8 Elastomers EPDM9 Fill / drain plugs Stainless steel AISI 316 EN 10088-1-X5CrNiMo17-12-2 (1.4401) 10 Wear ring Technopolymer (PPS)11 Bolts and screws Stainless steel AISI 304 EN 10088-1-X5CrNi18-10 (1.4301)PAGE 9Commercial WaterGoulds Water TechnologyMODEL 1, 3, 5, 10, 15, 22 HM..N SERIES – MAJOR COMPONENTSTABLE OF MATERIALS HM..N SERIES(SLEEVE DESIGN)REFRENCE NUMBER NAME MATERIALREFERENCE STANDARDSUSA EUROPE1 Head Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)2 Impeller Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)3 Diffuser and upper spacer Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)4 Outer sleeve Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)5 Shaft Stainless steel AISI 316 EN 10088-1-X5CrNiMo17-12-2 (1.4401)6 Adapter Aluminium — EN 1706-AC-AlSi11Cu2 (Fe) (AC46100)7 Ring with foot Aluminium — EN 1706-AC-AlSi11Cu2 (Fe) (AC46100)8 Seal housing Stainless steel AISI 316L EN 10088-1-X2CrNiMo17-12-2 (1.4404)9 Mechanical seal Ceramic / Carbon / EPDM (PN10) - Silicon Carbide/Carbon/EPDM (PN16)10 Elastomers EPDM11 Shaft sleeve and bushing Tungsten carbide12 Fill / drain plugs Stainless steel AISI 316L EN 10088-1-X5CrNiMo17-12-2 (1.4401)13 Tie rods Stainless steel AISI 431 EN 10088-1-X17CrNi16-2 (1.4057)14 Wear ring Technopolymer (PPS)PAGE 10Commercial WaterGoulds Water Technologye-HM™ SERIESMECHANICAL SEALSLIST OF MATERIALSComponentsPart Number1 2 3 4 and 5 Rotory Face Stationary Face Elastomers HardwareMaterialsB - Carbon E - EPDM (EPR) All 316 SS Q - Sil Carbide V - Viton V - CeramicPRESSURE AND TEMPERTURES LIMITSSeal Code1HM, 3HM 5HM 10HM, 15HM, 22HM2-6 Stages 7+ Stages 2-5 Stages 6+ Stages All StagesBQE 147PSI at 248F 235PSI at 248F 147PSI at 248F 235PSI at 248F 235PSI at 248FBQV 147PSI at 248F 235PSI at 248F 147PSI at 248F 235PSI at 248F 235PSI at 248FQQE 147PSI at 248F 235PSI at 194F 147PSI at 248F 235PSI at 194F 235PSI at 194FQQV 147PSI at 248F 235PSI at 194F 147PSI at 248F 235PSI at 194F 235PSI at 194FBVE 147PSI at 194F Not Available 147PSI at 194F Not Available Not AvailablePAGE 11Commercial WaterGoulds Water TechnologyMOTOR DATA3500 RPM, 60Hz, Lowara MotorsHP Ph Volts Enclosure SF FL Amps SF Amps Frame Size Goulds P/N3/4 1 115 TEFC / IP55 1.0 8.07 N/A 71 1072360001.0 1 115 TEFC / IP55 1.0 10.3 N/A 711072360401072360503/4 1 230 TEFC / IP55 1.0 3.69 N/A 71 1072360101.0 1 230 TEFC / IP55 1.0 4.84 N/A7110723606010723607080 1072361001.5 1 230 TEFC / IP55 1.0 6.85 N/A 801072361101072361201072361302.0 1 230 TEFC / IP55 1.0 9.22 N/A 801072361601072361703/4 3 208-230/460 TEFC / IP55 1.15 2.61-2.64/1.32 2.87 71 1072360201.0 3 208-230/460 TEFC / IP55 1.15 3.09-3.02/1.51 3.46 801072361801072361901072362001.5 3 208-230/460 TEFC / IP55 1.15 4.35-4.24/2.12 4.89 801072362401072362502.0 3 208-230/460 TEFC / IP55 1.15 5.77-5.58/2.79 6.51 801072362801072362901072363003.0 3 208-230/460 TEFC / IP55 1.15 8.23-7.98/3.99 9.33 9050A01R300H50A01R500H4.0 3 208-230/460 TEFC / IP55 1.15 11.3-10.9/5.45 12.8 9050A02R300H50A02R500H5.5 3 208-230/460 TEFC / IP55 1.15 14.1-13.4/6.7 16 100 50A08R500H7.5 3 208-230/460 TEFC / IP55 1.15 18.7-17.8/8.91 21.4 112 50A13R500H3/4 3 575 TEFC / IP55 1.15 1.04 1.12 71 1072360301.0 3 575 TEFC / IP55 1.15 1.20 1.31 801072362101072362201072362301.5 3 575 TEFC / IP55 1.15 1.69 1.87 801072362601072362702.0 3 575 TEFC / IP55 1.15 2.2 2.44 801072363101072363201072363303.0 3 575 TEFC / IP55 1.15 3.18 3.53 9050A01T300H50A01T500H4.0 3 575 TEFC / IP55 1.15 4.36 4.86 9050A02T300H50A02T500H5.5 3 575 TEFC / IP55 1.15 5.26 5.92 100 50A08T500H7.5 3 575 TEFC / IP55 1.15 7.2 8.07 112 50A13T500HAbove data is for Lowara™ Motors. Specifications are subject to change.PAGE 12Commercial WaterGoulds Water Technology1HM..N SERIES, (2 TO 10 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMXZPump Size Stages PhaseDWG No.Motor Dimensions (in)HP Frame Size A D H L L1 L2 M M1 N N1Max. Working Pressure (PSI)Weight (lbs)1HM02SINGLE PHASEX0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 181HM03 0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 181HM04 0.75 71 4.21 5.51 8.86 14.57 – – – – – – 147 201HM05 0.75 71 5.00 5.51 8.86 15.35 – – – – – – 147 201HM06 0.75 71 5.79 5.51 8.86 16.14 – – – – – – 147 201HM07Z1 71 5.94 5.51 8.86 16.69 6.02 4.09 3.94 4.92 4.92 6.10 235 241HM08 1 71 6.73 5.51 8.86 17.48 6.81 4.09 3.94 4.92 4.92 6.10 235 261HM09 1 71 7.52 5.51 8.86 18.27 7.60 4.09 3.94 4.92 4.92 6.10 235 261HM10 1.5 80 8.31 6.10 9.13 20.79 8.39 4.09 3.94 4.92 4.92 6.10 235 351HM02THREE PHASEX0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 181HM03 0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 181HM04 0.75 71 4.21 5.51 8.86 14.57 – – – – – – 147 201HM05 0.75 71 5.00 5.51 8.86 15.35 – – – – – – 147 201HM06 0.75 71 5.79 5.51 8.86 16.14 – – – – – – 147 201HM07Z1 71 5.94 6.10 9.13 18.43 6.02 4.09 3.94 4.92 4.92 6.10 235 311HM08 1 71 6.73 6.10 9.13 19.21 6.81 4.09 3.94 4.92 4.92 6.10 235 331HM09 1 71 7.52 6.10 9.13 20.00 7.60 4.09 3.94 4.92 4.92 6.10 235 331HM10 1.5 80 8.31 6.10 9.13 20.79 8.39 4.09 3.94 4.92 4.92 6.10 235 35PAGE 13Commercial WaterGoulds Water Technology1HM..N SERIES, (2 TO 10 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM8107965432TOTAL STAGES1Ø3Øhp/stageEfficiency %MINIMUM FLOW RATE: 3 GPMPAGE 14Commercial WaterGoulds Water Technology1HM..N SERIES, (11 TO 18 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMPump Size Stages Phase Motor Dimensions (in)HP Frame Size A D H L L1 L2 M M1 N N1Max. Working Pressure (PSI)Weight (lbs)1HM11SINGLE PHASE1.5 80 9.09 6.10 9.13 21.57 9.17 4.09 3.94 4.92 4.92 6.10 235 371HM12 1.5 80 9.88 6.10 9.13 22.36 9.96 4.09 3.94 4.92 4.92 6.10 235 371HM13 1.5 80 10.67 6.10 9.13 23.15 10.75 4.09 3.94 4.92 4.92 6.10 235 371HM14 2 80 11.46 6.10 9.13 23.94 11.54 4.09 3.94 4.92 4.92 6.10 235 421HM15 2 80 12.24 6.10 9.13 24.72 12.32 4.09 3.94 4.92 4.92 6.10 235 421HM16 2 80 13.03 6.10 9.13 25.51 13.11 4.09 3.94 4.92 4.92 6.10 235 421HM17 2 80 13.82 6.10 9.13 26.30 13.90 4.09 3.94 4.92 4.92 6.10 235 441HM18 2 80 14.61 6.10 9.13 27.09 14.69 4.09 3.94 4.92 4.92 6.10 235 441HM11THREE PHASE1.5 80 9.09 6.10 9.13 21.57 9.17 4.09 3.94 4.92 4.92 6.10 235 371HM12 1.5 80 9.88 6.10 9.13 22.36 9.96 4.09 3.94 4.92 4.92 6.10 235 371HM13 1.5 80 10.67 6.10 9.13 23.15 10.75 4.09 3.94 4.92 4.92 6.10 235 371HM14 2 80 11.46 6.10 9.13 23.94 11.54 4.09 3.94 4.92 4.92 6.10 235 421HM15 2 80 12.24 6.10 9.13 24.72 12.32 4.09 3.94 4.92 4.92 6.10 235 421HM16 2 80 13.03 6.10 9.13 25.51 13.11 4.09 3.94 4.92 4.92 6.10 235 421HM17 2 80 13.82 6.10 9.13 26.30 13.90 4.09 3.94 4.92 4.92 6.10 235 441HM18 2 80 14.61 6.10 9.13 27.09 14.69 4.09 3.94 4.92 4.92 6.10 235 44PAGE 15Commercial WaterGoulds Water Technology1HM..N SERIES, (11 TO 18 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM1618151714131211TOTAL STAGES1Ø3Øhp/stageEfficiency %MINIMUM FLOW RATE: 3 GPMPAGE 16Commercial WaterGoulds Water Technology3HM..N SERIES, (2 TO 8 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMXYZPump Size Stages PhaseDWG No.Motor Dimensions (in)HP Frame Size A D H L L1 L2 M M1 N N1Max. Working Pressure (PSI)Weight (lbs)3HM02SINGLE PHASE X0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 183HM03 0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 183HM04 0.75 71 4.21 5.51 8.86 14.57 – – – – – – 147 203HM05 1 71 5.00 5.51 9.13 16.85 – – – – – – 147 223HM06 Y 1.5 80 5.79 5.94 9.13 17.64 – – – – – – 147 313HM07Z1.5 80 5.94 5.94 9.13 18.43 6.02 4.09 3.94 4.92 4.92 6.10 235 333HM08 1.5 80 6.73 5.94 9.13 19.21 6.81 4.09 3.94 4.92 4.92 6.10 235 353HM02THREE PHASEX0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 183HM03 0.75 71 3.43 5.51 8.86 13.78 – – – – – – 147 183HM04 0.75 71 4.21 5.51 8.86 14.57 – – – – – – 147 203HM05Y1 80 5.00 5.51 9.13 16.85 – – – – – – 147 293HM06 1.5 80 5.79 5.94 9.13 17.64 – – – – – – 147 313HM07Z1.5 80 5.94 5.94 9.13 18.43 6.02 4.09 3.94 4.92 4.92 6.10 235 333HM08 2 80 6.73 5.94 9.13 19.21 6.81 4.09 3.94 4.92 4.92 6.10 235 37PAGE 17Commercial WaterGoulds Water Technology3HM..N SERIES, (2 TO 8 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM8765432TOTAL STAGES1Ø3Øhp/stageEfficiency %MINIMUM FLOW RATE: 5 GPMPAGE 18Commercial WaterGoulds Water Technology3HM..N SERIES, (9 TO 14 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMPump Size Stages Phase Motor Dimensions (in)HP Frame Size A D H L L1 L2 M M1 N N1Max. Working Pressure (PSI)Weight (lbs)3HM09SINGLE PHASE 2 80 7.52 6.10 9.13 20.00 7.60 4.09 3.94 4.92 4.92 6.10 235 373HM10 2 80 8.31 6.10 9.13 20.79 8.39 4.09 3.94 4.92 4.92 6.10 235 373HM09THREE PHASE2 80 7.52 6.10 9.13 20.00 7.60 4.09 3.94 4.92 4.92 6.10 235 373HM10 2 80 8.31 6.10 9.13 20.79 8.39 4.09 3.94 4.92 4.92 6.10 235 373HM11 3 90 9.09 6.85 9.13 23.58 10.08 5.00 4.92 5.91 5.51 6.46 235 513HM12 3 90 9.88 6.85 9.13 24.37 10.87 5.00 4.92 5.91 5.51 6.46 235 513HM13 3 90 10.67 6.85 9.13 25.16 11.65 5.00 4.92 5.91 5.51 6.46 235 513HM14 3 90 11.46 6.85 9.13 25.94 12.44 5.00 4.92 5.91 5.51 6.46 235 53PAGE 19Commercial WaterGoulds Water Technology3HM..N SERIES, (9 TO 14 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM14131211109TOTAL STAGES 1Ø3Øhp/stageEfficiency %MINIMUM FLOW RATE: 5 GPMPAGE 20Commercial WaterGoulds Water Technology5HM..N SERIES, (2 TO 7 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMXYZPump Size Stages PhaseDWG No.Motor Dimensions (in)HP Frame Size A D H L L1 L2 M M1 N N1Max. Working Pressure (PSI)Weight (lbs)5HM02SINGLE PHASE X0.75 71 4.09 5.51 8.86 14.45 – – – – – – 147 185HM03 1 71 4.09 5.51 8.86 14.45 – – – – – – 147 205HM04Y1.5 80 5.08 6.10 9.13 16.93 – – – – – – 147 315HM05 1.5 80 6.06 6.10 9.13 17.91 – – – – – – 147 315HM06 Z 2 80 6.22 6.10 9.13 18.70 6.22 4.09 3.94 4.92 4.92 6.10 235 365HM02THREE PHASEX 0.75 71 4.09 5.51 8.86 14.45 – – – – – – 147 185HM03Y1 80 4.09 6.10 9.13 15.94 – – – – – – 147 275HM04 1.5 80 5.08 6.10 9.13 16.93 – – – – – – 147 315HM05 2 80 6.06 6.10 9.13 17.91 – – – – – – 147 345HM06Z2 80 6.22 6.10 9.13 18.70 6.22 4.09 3.94 4.92 4.92 6.10 235 365HM07 3 90 7.20 6.85 9.13 21.89 8.11 5.00 4.92 5.91 5.51 6.46 235 49PAGE 21Commercial WaterGoulds Water Technology5HM..N SERIES, (2 TO 7 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM765432TOTAL STAGES1Ø3Øhp/stageEfficiency %MINIMUM FLOW RATE: 10 GPMPAGE 22Commercial WaterGoulds Water Technology5HM..N SERIES, (8 TO 12 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMPump Size Stages Phase Motor Dimensions (in)HP Frame Size A D H L L1 L2 M M1 N N1Max. Working Pressure (PSI)Weight (lbs)5HM08THREE PHASE3 90 8.19 6.85 9.13 22.87 9.09 5.00 4.92 5.91 5.51 6.46 235 495HM09 3 90 9.17 6.85 9.13 23.86 10.08 5.00 4.92 5.91 5.51 6.46 235 515HM10 4 90 10.16 6.85 9.13 24.84 11.06 5.00 4.92 5.91 5.51 6.46 235 585HM11 4 90 11.14 6.85 9.13 25.83 12.05 5.00 4.92 5.91 5.51 6.46 235 605HM12 4 90 12.13 6.85 9.13 26.81 13.03 5.00 4.92 5.91 5.51 6.46 235 60PAGE 23Commercial WaterGoulds Water Technology5HM..N SERIES, (8 TO 12 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM12111098TOTAL STAGES1Ø / 3Øhp/stageEfficiency %MINIMUM FLOW RATE: 10 GPMPAGE 24Commercial WaterGoulds Water Technology10HM..N SERIES, (1 TO 8 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMPump Size Stages Phase Motor Dimensions (in)HP Frame Size A D H H1 L L1 L2 M M1 N N1 P KMax. Working Pressure (PSI)Weight (lbs)10HM01SINGLE PHASE 1.5 80 4.92 6.1 9.13 3.54 17.44 4.8 4.13 3.94 4.92 4.92 6.1 0.49 0.39 235 3610HM02 2 80 4.92 6.1 9.13 3.54 17.44 4.8 4.13 3.94 4.92 4.92 6.1 0.49 0.39 235 3810HM01THREE PHASE1 80 4.92 6.1 9.13 3.54 17.44 4.8 4.13 3.94 4.92 4.92 6.1 0.49 0.39 235 3410HM02 2 80 4.92 6.1 9.13 3.54 17.4 4.8 4.13 3.94 4.92 4.92 6.1 0.49 0.39 235 3810HM03 3 90 4.92 6.85 9.13 3.54 19.45 5.67 5.04 4.92 5.91 5.51 6.46 0.49 0.39 235 5110HM04 4 90 6.18 6.85 9.13 3.54 20.71 6.93 5.04 4.92 5.91 5.51 6.46 0.49 0.39 235 6010HM05 5.5 100 7.44 7.76 10 3.94 23.31 8.98 5.79 5.51 6.69 6.3 7.24 0.59 0.47 235 7510HM06 5.5 100 8.7 7.76 10 3.94 24.57 10.24 5.79 5.51 6.69 6.3 7.24 0.59 0.47 235 7810HM07 7.5 112 9.96 8.43 11.02 4.41 27.17 11.77 6.06 5.51 6.69 7.48 8.62 0.59 0.47 235 9510HM08 7.5 112 11.22 8.43 11.02 4.41 28.43 13.03 6.06 5.51 6.69 7.48 8.62 0.59 0.47 235 98PAGE 25Commercial WaterGoulds Water Technology10HM..N SERIES, (1 TO 8 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM87654321TOTAL STAGEShp/stageEfficiency %MINIMUM FLOW RATE: 15 GPM1Ø / 3ØPAGE 26Commercial WaterGoulds Water Technology15HM..N SERIES, (1 TO 4 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMPump Size Stages Phase Motor Dimensions (in)HP Frame Size A D H H1 L L1 L2 M M1 N N1 P KMax. Working Pressure (PSI)Weight (lbs)15HM01SINGLE PHASE2 80 5.67 6.10 9.13 3.54 18.82 6.06 4.76 3.94 4.92 4.92 6.10 0.49 0.39 235 3815HM01THREE PHASE 2 80 5.67 6.10 9.13 3.54 18.82 6.06 4.76 3.94 4.92 4.92 6.10 0.49 0.39 235 3815HM02 4 90 5.67 6.85 9.13 3.54 20.87 6.93 5.67 4.92 5.91 5.51 6.46 0.49 0.39 235 5815HM03 5.5 100 5.67 7.76 10.00 3.94 22.17 7.72 6.42 5.51 6.69 6.30 7.24 0.59 0.47 235 7115HM04 7.5 112 7.56 8.43 11.02 4.41 25.39 9.88 6.69 5.51 6.69 7.48 8.62 0.59 0.47 235 89PAGE 27Commercial WaterGoulds Water Technology15HM..N SERIES, (1 TO 4 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM4321TOTAL STAGEShp/stageEfficiency %MINIMUM FLOW RATE: 25 GPM1Ø / 3ØPAGE 28Commercial WaterGoulds Water Technology22HM..N SERIES, (1 TO 3 STAGES)DIMENSIONS AND WEIGHTS AT 60 HZ, 3500 RPMPump Size Stages Phase Motor Dimensions (in)HP Frame Size A D H H1 L L1 L2 M M1 N N1 P KMax. Working Pressure (PSI)Weight (lbs)22HM01THREE PHASE3 90 5.67 6.85 9.13 3.54 20.83 6.93 5.67 4.92 5.91 5.51 6.46 0.49 0.39 235 4922HM02 5.5 100 5.67 7.76 10.00 3.94 22.17 7.72 6.42 5.51 6.69 6.30 7.24 0.59 0.47 235 7122HM03 7.5 112 5.67 8.43 11.02 4.41 23.50 7.99 6.69 5.51 6.69 7.48 8.62 0.59 0.47 235 86PAGE 29Commercial WaterGoulds Water Technology22HM..N SERIES, (1 TO 3 STAGES)OPERATING CHARACTERISTICS AT 60 HZ, 3500 RPM312TOTAL STAGEShp/stageEfficiency %MINIMUM FLOW RATE: 30 GPM1Ø / 3ØPAGE 30Commercial WaterGoulds Water TechnologyTECHNICAL DATA – WATER PROPERTY CHARTTemp ºF Temp ºCSpecific Volume(Cubic ft/lb)Specific Gravity Weight(lb/cubic ft)Vapor Pressure(psi Abs)@ 39.2ºF @ 60ºF @ 68ºF32 0.0 0.01602 1.000 1.001 1.002 62.42 0.08835 1.7 0.01602 1.000 1.001 1.002 62.42 0.10040 4.4 0.01602 1.000 1.001 1.002 62.42 0.12250 10.0 0.01603 0.999 1.001 1.002 62.38 0.17860 15.6 0.01604 0.999 1.000 1.001 62.34 0.25670 21.1 0.01606 0.998 0.999 1.000 62.27 0.36380 26.7 0.01608 0.996 0.998 0.999 62.19 0.50790 32.2 0.0161 0.995 0.996 0.997 62.11 0.698100 37.8 0.01613 0.993 0.994 0.995 62.00 0.949120 48.9 0.0162 0.989 0.990 0.991 61.73 1.692140 60.0 0.01629 0.983 0.985 0.986 61.39 2.889160 71.1 0.01639 0.977 0.979 0.979 61.01 4.741180 82.2 0.01651 0.970 0.972 0.973 60.57 7.510200 93.3 0.01663 0.963 0.964 0.966 60.13 11.526212 100.0 0.01672 0.958 0.959 0.960 59.81 14.696220 104.4 0.01677 0.955 0.956 0.957 59.63 17.186240 115.6 0.01692 0.947 0.948 0.949 59.10 24.97260 126.7 0.01709 0.938 0.939 0.940 58.51 35.43280 137.8 0.01726 0.928 0.929 0.930 58.00 49.20300 148.9 0.01745 0.918 0.919 0.920 57.31 67.01320 160.0 0.01756 0.908 0.909 0.910 56.66 89.66340 171.1 0.01787 0.896 0.898 0.899 55.96 118.01360 182.2 0.01811 0.885 0.886 0.887 55.22 153.04380 193.3 0.01836 0.873 0.874 0.875 54.47 195.77400 204.4 0.01864 0.859 0.860 0.862 53.65 247.31420 215.6 0.01894 0.846 0.847 0.848 52.80 308.83440 226.7 0.01926 0.832 0.833 0.834 51.92 381.59460 237.8 0.0196 0.817 0.818 0.819 51.02 466.9480 248.9 0.02 0.801 0.802 0.803 50.00 566.1500 260.0 0.0204 0.785 0.786 0.787 49.02 680.8520 271.1 0.0209 0.765 0.766 0.767 47.85 812.4540 282.2 0.0215 0.746 0.747 0.748 46.51 962.5560 293.3 0.0221 0.726 0.727 0.728 45.30 1133.1580 304.4 0.0228 0.703 0.704 0.704 43.90 1325.8600 315.6 0.0236 0.678 0.679 0.680 42.30 1542.9620 326.7 0.0247 0.649 0.650 0.650 40.50 1786.6640 337.8 0.026 0.617 0.618 0.618 38.50 2059.7660 348.9 0.0278 0.577 0.577 0.578 36.00 2365.4680 360.0 0.0305 0.525 0.526 0.527 32.80 2708.1700 371.1 0.0369 0.434 0.435 0.435 27.10 3093.7PAGE 31Commercial WaterGoulds Water TechnologyTECHNICAL DATA – NPSHNPSHThe minimum operating values that can be reached at the pump suction end are limited by the onset of cavitation.Cavitation is the formation of vapor-filled cavities within liquids where the pressure is locally reduced to a criti-cal value, or where the local pressure is equal to, or just below the vapor pressure of the liquid.The vapor-filled cavities flow with the current and when they reach a higher pressure ares the vapor contained in the cavities condenses. The cavities collide, generat-ing pressure waves that are transmitted to the walls. These, being subjected to stress cycles, gradually become deformed and yield due to fatigue. This phe-nomenon, characterized by a metallic noise produced by the hammering on the pipe walls, is called incipient cavitation.The damage caused by cavitation may be magnified by electrochemical corrosion and a local rise in tempera-ture due to the plastic deformation of the walls. The materials that offer the highest resistance to heat and corrosion are alloy steels, especially austenitic steel. The conditions that trigger cavitation may be assessed by calculating the total net suction head, referred to in technical literature with the acronym NPSH (Net Posi-tive Suction Head).The NPSH represents the total energy (expressed in feet) of the liquid measured at suction under condi-tions of incipient cavitation, excluding the vapor pres-sure (expressed in feet) that the liquid has at the pump inlet.To find the static height (hz) at which to install the machine under safe conditions, the following formula must be verified:hp + hz = (NPSHr + 2 ft) + hf + hpvwhere:hp is the absolute pressure applied to the free liquid surface in the suction tank, expressed in feet of liquid; hp is the quotient between the barometric pressure and the specific weight of the liquid.hz is the suction lift between the pump axis and the free liquid surface in the suction tank, expressed in feet; hz is negative when the liquid level is lower than the pump axis.hf is the flow resistance in the suction line and its ac-cessories, such as: fittings, foot valve, gate valve, elbows, etc.hpv is the vapor pressure of the liquid at the operating temperature, expressed in feet of the liquid. hpv is the quotient between the Pv vapor pressure and the liquid‘s specific weight.0.5 is the safety factor.The maximum possible suction head for installation depends on the value of the atmospheric pressure (i.e. the elevation above sea level at which the pump is installed) and the temperature of the liquid.To help the user, with reference to water temperature (40ºF) and to the elevation above sea level, the follow-ing tables show the drop in hydraulic pressure head in relation to the elevation above sea level, and the suc-tion loss in relation to temperature. Water Temperature (ºF) 68 104 140 176 194 230 248 Suction Loss (ft) -.7 2.3 6.6 16.4 24.3 50.5 70.5 Elevation Above Sea Level (ft) 1600 3300 4900 6500 8200 9800 Suction Loss (ft) 1.8 3.6 5.4 7.2 9.0 10.8To reduce it to a minimum, especially in cases of high suction head (over 13 – 16 feet) or within the operat-ing limits with high flow rates, we recommend using a suction line having a larger diameter than that of the pump’s suction port. It is always a good idea to posi-tion the pump as close as possible to the liquid to be pumped.PAGE 32Commercial WaterGoulds Water TechnologyTECHNICAL DATA – COMPATABILITY CHART FOR MATERIALS IN CONTACT WITH MOST COMMONLY USED LIQUIDSLiquidConcentration(%)TemperatureMin/Max ºFSpecificWeight (lb/in3)1HM - 22HM RecommendedSealElastomers316Water 100 23/248 • QBEGG EDeionized, demineralized 100 -13/230 • QBEGG EWater and oil emulsion any 23/194 • QBVGG VAcetic acid (•) 80 14/158 .038 • QBEGG ECitric acid 5 14/158 .056 • QBEGG EHydrochloric acid 2 23/77 .043 • QQVGG VPhosphoric acid 10 23/86 .048 • QBEGG ENitric acid (•) 50 23/86 .053 • QQVGG VSulphuric acid (•) 2 14/77 .066 • QBVGG VTannic acid 20 32/122 • QBEGG ETartaric acid 50 14/77 .063 • QQVGG VUric acid 80 14/176 .068 • QBEGG EBenzoic acid 70 32/158 .047 • QBVGG VBoric acid Saturated 14/194 .052 • QQVGG VFormic acid (•) 5 5/77 .044 • QBEGG EEthyl alcohol (•) 100 23/104 .029 • QBEGG EMethyl alcohol (•) 100 23/104 .029 • QBEGG EPropyl alcohol (•) 100 23/176 .029 • QBEGG EButyl alcohol 100 23/176 .030 • QBVGG VDenatured alcohol (•) 100 23/158 .030 • QBEGG EAmmonia in water (•) 25 -4/122 .038 • QBEGG EChloroform 14/86 .053 • QBVGG VCaustic soda 25 32/158 .077 • QQEGG EWater, detergents, 23/176 • QQVGG VCleaning products 23/212 • QQVGG VDiesel oil (•) 100 32/176 .033 • QBVGG VKerosene (•) 100 32/176 • QBVGG VFuel oil (•) 32/194 .027 • QBVGG VGlycerine 100 68/194 .046 • QBEGG ESodium Hypochlorite 1 14/77 • QQVGG VPhosphates/polyphosphates 23/194 • QQVGG VSodium nitrate Saturated 14/176 .081 • QBEGG ECutting fluid 100 23/230 .033 • QBVGG VPeanut oil (•) 100 23/230 .034 • QBEGG EColza oil (•) 100 23/230 .034 • QBEGG ELinseed oil (•) 100 23/230 .034 • QBEGG ECoconut oil (•) 100 -4/194 .033 • QBEGG ESoybean oil (•) 100 32/194 • QBEGG EDiathermic oil 100 23/230 .033 • QBVGG VHydraulic oil 100 23/230 • QBVGG VMineral oil 100 23/230 .034 • QBVGG VSodium sulfate 15 14/104 .094 • QQEGG EAluminum sulfate 30 23/122 .097 • QQEGG EAmmonium sulfate 10 14/140 .064 • QQEGG EIron sulfate 10 23/86 .076 • QBEGG ECopper sulfate 20 32/86 .082 • QQVGG VTrichloroethylene 14/104 .053 • QBVGG VPerchlorethylene 14/86 .057 • QBVGG VLegendQ = Silicon carbide B = Carbon E = EPDM V = Viton G = AISI 316 (spring, metal components)(•) A special version may be necessary for this fluid. For additional information, please contact our sales network.PAGE 33Commercial WaterGoulds Water TechnologyNOTESPAGE 34Commercial WaterGoulds Water TechnologyNOTESPAGE 35Commercial WaterGoulds Water TechnologyNOTESGoulds is a registered trademark of Goulds Pumps, Inc. and is used under license.© 2013 Xylem Inc. BeHM R3 January 2014Xylem Inc. 1 Goulds Drive Auburn, NY 13021 Phone: (866) 325-4210 Fax: (888) 322-5877www.gouldswatertechnology.com1) The tissue in plants that brings water upward from the roots;2) a leading global water technology company.We’re 12,900 people unified in a common purpose: creating innovative solutions to meet our world’s water needs. Developing new technologies that will improve the way water is used, conserved, and re-used in the future is central to our work. We move, treat, analyze, and return water to the environment, and we help people use water efficiently, in their homes, buildings, factories and farms. In more than 150 countries, we have strong, long-standing relationships with customers who know us for our powerful combination of leading product brands and applications expertise, backed by a legacy of innovation.For more information on how Xylem can help you, go to www.xyleminc.comXylem